Analysis Of Peak-To-Average Power Ratio Of Orthogonal Chirp Division Multiplexing Multicarrier System Based on The Discrete Fractional Cosine Transform
41-46
41.Cnf-577 Paper View Page
Title
Secrecy gain of Gaussian wiretap codes from Barnes’s lattice A62
Physical layer security aims at making the communication system reliable and secure using the signal processing, channel coding and communication techniques, unlike the traditional secrecy communication schemes based on ciphers. Gaussian wiretap lattice coding is one of the promising coding methods with excellent performance. Since the notion of secrecy gain was proposed by Jean-Claude Belfiore, it has been the unique invariant to characterize the confusion in Gaussian lattice coding scheme, i.e. the largter the secrecy gain, the more confusion at the eavesdropper and the more security at the legitimate receiver. So the calculation of secrecy gain is of theoretical significance to the physical layer security issue. In this paper, the secrecy gain of the noted lattice named Barnes's lattice A62 is derived and calculated.
4th Mosharaka International Conference on Mobile Computing and Wireless Communications (MIC-MCWC 2013)
Congress
2013 Global Congress on Mobile Computing and Wireless Communications (GC-MCWC 2013), 14-16 June 2013, Valencia, Spain
Pages
18-22
Topics
Channel Coding Communication System Performance Analysis
ISSN
2227-331X
DOI
BibTeX
@inproceedings{577MCWC2013,
title={Secrecy gain of Gaussian wiretap codes from Barnes’s lattice A62},
author={Wei Cao, and Jing Lei, and Wei Liu, and Weidong Hu, and Qi Zongfeng},
booktitle={2013 Global Congress on Mobile Computing and Wireless Communications (GC-MCWC 2013)},
year={2013},
pages={18-22},
doi={}},
organization={Mosharaka for Research and Studies}
}